Post on 19-Jan-2016
Infrastructure Requirement for Internet Video Conference using
Broadband Networks
Kazunori SugiuraCommunication Research Laboratory(CRL)
Keio University
uhyo@sfc.wide.ad.jp
This presentation consists of 46 Pages
Before I Start with my presentation:-)
• My PPT Files are available at(during the session):
• Available in above ftp servers during session:• Full Source code patch for IEEE1394 Interface• sender and receiver application(Binaries Only)
• IPv6, RTP, Multicast, packet discard, packet monitoring
• sample sources for DV driver application.
ftp site: 192.168.0.40 username: dv password: ieee1394
Next: Outline
Outline
• Why am I talking about the Video Communication Tools using Internet?
• Motivation and NEEDS.
• Development of Internet Video Communication tool using DV(Digital Video) and IEEE1394.– Broadband Network Availability(LAN and WAN).
– Digital Output Video Interface(a.k.a IEEE1394)
• Some experiment using DV Over IP.
• Broadband Network Killer Applications.• May be a good application for bandwidth brokers :-)
Next: Motivations
Motivations
• To establish a Real-time Video Conferencing system with…– High Quality Video and Audio
– NTSC Quality Video– >CD Quality Audio
– Broadband(High Speed) Network Availability• Target:
– LAN Based Conference• 100Base-T Ethernet or more….
– Multicast Communications– Availability via WAN.
– Good killer application for broadband network as …– testing queuing algorithm– Testing operating system overhead– Benchmarks and Interoperability test for switches, routers,etc...
Next: IMHO:Needs
Needs
• I am now working(?) at CRL– Communication Research Laboratory
• Communication System Division, High Speed Network Lab.
• Also….– Keio University SFC Student.
• I am (still) fighting for my Doctor’s Degree
• And some extras… (May be a waste of precious time?!:-)– WIDE Project Primary ( and active :-) ) NOC maintenance staff.
– J-GBN… etc.
I will need a good Remote Video Conference System(s)!!
Next: Remote Accessibility
ALL IN DIFFERENT LOCATIONS!!!
Location Accessibility
Keio UniversitySFC
CRL
Keio MitaCampus
NTT, KDDNSPIXP…
TokyoUniv.
Distance in Kilometers
Where I Live
Where hxt LivesNext: Cost for transportation
Cost for transportation
• From CRL to IXP Housing in KDD• From CRL to Keio SFC
• If I go from CRL to IXP and then back to SFC...
\1300
\1200
90min.
90min.
600+700+700+1250=3250 Yen…I will need to waste more than 3 Hours for transportation
I cannot afford that much money and time all the time!!!...Next: Plus more
Plus more…
• I Have a collection of…• DVD movies(Nearly 300 titles and growing :-)
• 50% of which are not even opened.
• Laser discs and Collection Box.( Nearly 400 titles and growing :-)
• 80% of which are not even opened.
• Estimation of time to see all the unopened titles:
• {(300 x 50%) x 120} + {(400 x 80%) x 120 x 5} minutes
I would like to see my Video anywhere, at anytime!!
= about 146 Full Days….
Next: Post phone
What we can use for Location transparency?
• What can we use for remote conference?– Telephone Conference system:
– Lack of Video Availability
– How about Interaction?
– Consumer Video Conference System:– Expensive, Lack of performance(ISDN Based…) mobility…
– Network Video Conferencing system:– Lack of Realtime interactions:
• RealVideo– Performance, obsolete applications:
• Vic, Vat– Lack of Multicast implementations:
• Net Meeting
Next: Network BandwidthNetwork Conference System is a good answer.
Network Bandwidth in Internet is expanding
1994 1998 2002 20041990(Year)
10K
100K
1M
10M
100M
1G
Amount of network bandwidth(Byte)
Next: Bandwidth for Video Comm.
Video communication System:Network Bandwidth
Amount of network bandwidth(Byte)
10K
100K
1M
10M
100M
RealVideo Netmeeting DV/IP D1/IP Hi-V(D3)/IPNext:fortunate: Our Network Infrastructure
Our Network Infrastructure
Keio UniversitySFC
CRL
Keio MitaCampus
NTT, KDDNSPIXP…
TokyoUniv.
OC-3
Next: Current Video Comm tools.
Current Internet Video Broadcasting System
• Limitation in Network Bandwidth– Video/Sound encoding cost is enormous.
– Based on Software Video format encoding.– Major Video Capture Interface:
• PCI Bt848A based encoder board• Bi-directional support for Sound
• Consumer application: some are NOT FREE...• Quality: Massive compression of Video/Audio• Real time Teleconferencing System
– High cost equipment is required.– Realtime MPEG2 Encoder.
Next: Characteristic of Internet
Characteristics of Internet
• best effort basis network
• Network Characteristics…– Weakness in Stream media(Stream packet)
• Jitter
• Network Packet losses
• Congestion Control
Next: Requirements
Summary:Requirements
• High Quality Picture• NTSC Quality Video
• High Quality Sound• > CD Quality Audio
• Transfer without delay
• Mid range bandwidth( 10Mbps and higher )
• low cost solution• minimum equipment, maximum performance
Next: Characteristics of DVUsing DV would be a good solution.
Characteristics of DV
• DV Format:– 720 x 480 Pixel
• requires bandwidth over 30Mbps
• when using NTSC Output video(525i)– 525 lines– 29.97 frames per second
• 525p(Progressive will be available)
Next: DV Frame rate and Bandwidth
DV Frame rate and Bandwidth
Mode Frame rate Required Bandwidth(over IEEE1394)
525/60 29.97 Hz 29.5 Mbps625/50 25 Hz 29.5 Mbps1125/60 30 Hz 59.0 Mbps1250/50 25 Hz 59.0 Mbps
Next: System Design
Our system Design
• Ease of Availability– Consumer DV products– Simple IEEE1394 to IP encapsulation
• Network conservation technique– Frame discarding method
• packet loss, delay and jitter adaptation– Simple buffering/discarding technique
Next: System Requirements
System Requirements
• Standard Pentium,Pentium II based PC• requires >200MHz Pentium• Intel SE440BX-2 Motherboard• NO ASUS P2B-F!!!• FreeBSD 3.2
• PCI based IEEE1394 interface card• Adaptec PCI IEEE1394 Card• Texas Instruments Chipset(PhotoDV,MotoDV)
• 100BaseT PCI Ethernet NIC• Consumer DV Camcorder with DV Output• Cables
Next: Software Design
Software Design
• Kernel patch for IEEE1394 device driver• character device Lynx,ilink
• DV sender application(dvsend)• DV receiver application(dvrecv)
Usage : ./dvsend [options] [host/port/ttl]<options>-v : show version number-h host : sendto host "hostname"-f rate : send full frame by 1/rate-r rate : drop packets in random pattern-I interface : use interface "interface"-b size : set SO_SNDBUF to "size"-n : do not always send audio data-m : do not send packet with same data-M interface : use "interface" for sending multicast packets-t ttl : TTL for multicast-c ch : recv from 1394 channel "ch"-p number : send with RTP payload type "number"-P port : use UDP port "port"
Usage : ./dvrecv options<options>-v : show version number-m mod : mod (magic number)-f frac : frac (magic number)-I ifname : the interface to use-b frames : number of frame buffer-r size : value for SO_RCVBUF-j group : Join to Multicast group-M ifname : Multicast output interface-c ch : send to 1394 channel "ch"-s ipaddr : recv from src ipaddr-S number : recv packet with specific RTP payload number-P port : use UDP port "port"-z sync : sync
Next: DV software mechanism
DV Transceiver System
IEEE1394Cable
Consumer DV Camera
IEEE1394Cable
Internet
DV→Internet PC Internet →DV PC
Consumer DV Deck
Next: DV IP Encapsulation
DV
DV
DV
DV
DV
IP
UDP
UDP
recorder1394Header
ApplicationHeader
DV/IP EncapsulationSender
Receiver
Next: Packet Format
Packet Format
IP(20)
UDP(8)
Header(8)
IEEE1394ISO
header(4)
DV data (488)
Unused(2)
Sequence(2)
Regulation Parameter(4)
Next: DV Packet Stream Control
DV Packet Stream Control• Controlling the Packet flow of DV stream.
• To conserve network bandwidth utilization...– cost for compression needs to be short
– Complicated compression will require processing cost
• For Video Communications...• Full frame rate Video is not required
• Full quality Audio is required
– But...• continuous transmission is required
• loss of audio packet is innegligible.
Next: Frame discarding
Frame Discarding
Video Frame( 60 Frame/Sec)Video data in frameaudio data in frame
• Full rate digital video stream
• Half rate digital video stream
• 1/3 rate digital video stream
DV Packet with Audio
DV Packet without Audio
Next: Frame rate and bandwidth
Frame rate and required Bandwidth
Full 1/2 1/3 1/4 1/5 1/605
1015202530
MBPS
Frame Rate
Audio Packet
Video PacketNext: Receiver implementation
Receiver Implementation
• ability to adapt to jitters and packet drops– simply uses previous data when packet drops– ability to use multiple buffers for video frames
• Receiver consists of two Unix processes– UDP packet receiving process– IEEE1394 packet sending process
Next: Schematic of dvrecv
Internet
DVIP UDP
UDP PacketReceiver Process
IEEE1394Packet Output
Process
Shared Memory
Frame Buffer 0
Frame Buffer 1
Frame Buffer 2
Frame Buffer n-1
DV Data
DV Video decks.
Next: Time is up
My time is UP? Sorry…. Still some slides to go...
I know most of people are worrying about the next session :-)
Infrastructure we have tested….
Network Structure(1999/07/19)
SFCBay BCN
SFCAccelar
1250
SFCAccelar
1100
SFCAtomis 5s
NTTAtomis 7M
KDDAtomis 7M
KDDCisco 7507
KDDNetgear100 sw
SFCBay
Switch
CRLAtomis 5S
CRLCisco7200
Sender Receiver Sender Receiver Sender Receiver
Atm/6/1 MM202.0.73.233/30VPI/VCI=1/150202.0.73.229/30VPI/VCI=1/151
Slot 31 MMVPI/VCI=1/150VPI/VCI=1/151
Slot 20 SMVPI/VCI=1/150VPI/VCI=1/151
Slot 032 SMVPI/VCI=1/150VPI/VCI=1/151Slot 030 SMVPI/VCI=1/151VPI/VCI=1/152
Slot 000 SMVPI/VCI=0/150VPI/VCI=0/152
Slot 020 SMVPI/VCI=0/150VPI/VCI=0/152
Slot 042 SMVPI/VCI=1/150VPI/VCI=1/152
Atm5/0/0.2 MM202.0.73.234/30VPI/VCI=1/150202.0.73.226/30VPI/VCI=1/152
Atm1/0.{1,2} MM202.0.73.225VPI/VCI=1/152202.0.73.230/30VPI/VCI=1/151
100BaseTGigabit EthernetOC-3 ATM
Next: Lab in CRL.
Lab in CRL.
Next: Otemachi
Looking at a view of Otemachi at CRL.
DV Over IP Demonstration fromOrlando Florida To Keio SFC
Audio Mixer
Video Screen
モニタ
CATVTransmitter
Monitor
Classroom
DV Camera
DV Video Deck
IEEE1394
DV to Internet PC
NTSC VideoAudio
CATV
WIDEWIDE vBNSvBNS
Jun Murai
TransPAC
IPIP
Orlando Florida SC98
Network Room
DV Camera
DV Video Deck
Bi-directional communication
IEEE1394
DV to Internet PC
Traffic Used at SC98
Green :Orlando → JapanBlue Line :Japan → Orlando
1999/04/23 DV Over IP Experiment1300 - 1800 JST
IEEE1394 Cabling
Analog Cabling
100BaseT Ethernet
Inbound, Outbound Traffic
Uplink Ethernet Port
Internet Broadcasting Experiment
Internet Live Broad and Multi-cast System
Sender PC
Receiver PC
Wireless Mic.Audio Selector
Video Input
Monitor, Antenna
DV Video Recorder
Video Selector
Main Power Supply
DV Video recorder
Keyboard
PC Monitor
NTSC PAL SECAMRGB Scan Converter
Main Power Supply
Rack 1 Rack 2
Internet Connection in ICWES(19990727)
NTTAtomis 7M
Tokyo Univ.Megalink
Tokyo Univ.aa03
Tokyo Univ.aal3
JGNFORE
Kyoto Univ.7m
ASTEMAtomis 7m
3F KRPAtomis 7m
3F KRPCisco7206
1/155 24/155 24/155
1/166
1/166
1/1662/1662/166
KDDAtomis 7M
KDDCisco7507
0/166
1/166
ATM LineKRP
100BaseTXEthernet
Internet
Presentation in ICWES ‘99
Inbound and outbound packets
input (Total) output packets errs bytes packets errs bytes colls 8059 0 3782898 8112 0 4091648 0 8081 0 3794338 8085 0 4069112 0 8083 0 3794858 8084 0 4069112 0 8082 0 3794358 8085 0 4069646 0
DV Conference SystemNetwork Traffic
OutputOctets
Time
Todo…• Hardware Support:
• stability on Sony Vaio notebook iLink IEEE1394 Interface– Sony Notebook PC Plug and Pray(Play) architecture implementation.
• Sender and Receiver in One Machine.– Device Driver Optimizaion
• XXX Features…. Bus reset during session… XXX
• Operating System Support:– Implementation to RTMach
• Realtime stream congestion control
• Application Support:– X Window based applications
• Media Conversion Support– Stream compression support for Thin networks.
海馬
海馬
海馬
海馬海馬海馬
海馬
トド 海馬
Conclusion:For More Informations...
http://www.sfc.wide.ad.jp/~uhyo/STREAM/stream.html
You can get the latest ppt files, sources, results, meeting logs, etc.at:
I would like to apologize that some of the contents are written in 伝統的日本語 (Traditional Japanese) :-)English pages are also available.